- Authors:
- Source: Journal of Agricultural and Food Chemistry
- Volume: 60
- Issue: 36
- Year: 2012
- Summary: Alkylresorcinols are phenolic lipids, with homologues ranging from C17 to C25, found in high concentrations in whole grain wheat and rye, lower concentrations in barley, and negligible concentrations in refined wheat flour. The analysis of alkylresorcinols is of importance due to their potential as biomarkers of whole grain intake and emerging evidence for some biological effects. Present HPLC methods have insufficient resolution for accurately quantitating the mix of alkyl- and alkenylresorcinols found in rye. An ultrahigh-pressure liquid chromatography method was developed, and three detection methods (CoulArray (CAED), ultraviolet (UV), and fluorescence detection (FD)) were compared for cereal alkylresorcinol analysis. The lower limits of quantitation and detection were 50 and 20 pg injected, 5 pg and 2 pg injected, and 500 and 1250 pg injected for FD, CAED, and UV, respectively. FD and CAED provided similar results, with some bias for higher results with FD (
- Authors:
- Vaivode, A.
- Balodis, O.
- Gaile, Z.
- Kreita, D.
- Malecka, S.
- Skrabule, I.
- Ruza, A.
- Katamadze, M.
- Source: Zinatniski praktiskas konference, "Zinatne Latvijas Lauksaimniecibas Nakotnei: Partika, Lopbariba, Skiedra un Energija"
- Year: 2012
- Summary: In order to obtain significant data about the plant nutrient utilization from mineral fertilizers and maximum allowed dosages of fertilizers, a project, financed by the Ministry of Agriculture of the Republic of Latvia, was started in the year 2008. The aim of the project was to determine the utilization indicators of mineral fertilization, mainly nitrogen fertilization, on different nitrogen fertilization application dosages, also the maximum limit of and economically substantiated nitrogen fertilization dosages in different regions of Latvia depending on the year under the variable meteorological conditions. Different important field crops were used within the project: winter rye, winter and spring wheat, winter and spring oilseed rape, spring barley and potatoes. Field trials were established in research stations in different regions of Latvia: at the Research and Study Farm 'Vecauce" of the Latvia University of Agriculture; at the Research and Study Farm 'Peterlauki' of the Latvia University of Agriculture; at State Stende Cereals Breeding Institute and State Priekuli Field Crops Breeding Institute. Plant nutrition nitrogen agronomic efficiency from mineral fertilizers changed depending on the nitrogen fertilizing norm and yield. The specific results were observed concerning the nitrogen and potassium utilization, also the result differed between crops.
- Authors:
- Source: Julius-Kuhn-Archiv
- Volume: 2
- Issue: 434
- Year: 2012
- Summary: Early autumn herbicide application in winter cereals is in many areas a reasonable agronomic procedure. ADDITION with the well-known active ingredients diflufenican (40 g/l) and pendimethalin (400 g/l) is a new combination for weed control in winter wheat, barley, rye and triticale. Early post emergence application of 2.5 l/ha includes these advantages: unrestricted selectivity to various application conditions for all kinds and varieties of winter cereals and wide efficacy spectrum to broad-leaved weeds. The specific feature of ADDITION is a complementary and overlapping efficacy spectrum. Within the overlapping spectrum diflufenican and pendimethalin affect the same weed varieties with different modes and on different sites of action. HRAC rates diflufenican to group F1 and pendimethalin to group K1. These different modes of action are the basis for variety specific resistance management. According to increasing discussions of weed resistance, ADDITION is a strong partner to set up a successful long term resistance management. Favorable restrictions are allowing a wide application range of ADDITION.
- Authors:
- Orhan, I.
- Coksari, G.
- Kan, A.
- Senol, F.
- Source: International Journal of Food Sciences and Nutrition
- Volume: 63
- Issue: 5
- Year: 2012
- Summary: The ethyl acetate and ethanol extracts obtained from eight varieties (Faikbey, Y-1779, CI-8357, Cheokota, Seydisehir, Y-330, Sivas and YVD-18) of oat ( Avena sativa L.), one variety (Larende) of barley ( Hordeum vulgare L.), one variety (Tatlicak 97) of triticale ( Triticale sp.) and one rye variety (Aslim 95) ( Secale cereale L.) were investigated for their antioxidant effects in seven test systems. Anticholinesterase activity of the extracts was examined by enzyme-linked immunosorbent assay (ELISA) microplate reader. Total phenol and flavonoid contents were calculated using Folin Ciocalteau and AlCl 3 reagents, respectively. All of the extracts were ineffective in cholinesterase inhibition assays and had weak-to-moderate activity in antioxidant assays. The extracts exerted better activity in iron-chelation capacity ranging between 43.172.04 and 62.971.29%. Triticale extracts showed higher activity in reducing power experiments. A notable difference in the results of the antioxidant activity assays was observed among the oat varieties.
- Authors:
- El-Moneim, D.
- Tellez-Robledo, B.
- Benito, C.
- Silva-Navas, J.
- Gallego, F.
- Source: Molecular Breeding
- Volume: 30
- Issue: 2
- Year: 2012
- Summary: Soluble aluminum (Al 3+) is a major constraint to plant growth in highly acidic soils, which comprise up to 50% of the world's arable land. The primary mechanism of Al resistance described in plants is the chelation of Al 3+ cations by release of organic acids into the rhizosphere. Candidate aluminum tolerance genes encoding organic acid transporter of the ALMT (aluminum-activated malate transporter) and MATE (multi-drug and toxic compound extrusion) families have been characterized in several plant species. In this study, we have isolated in five different cultivars the rye ScAACT1 gene, homolog to barley aluminum activated citrate transporter HvAACT1. This gene mapped to the 7RS chromosome arm, 25 cM away from the ScALMT1 aluminum tolerance gene. The gene consisted of 13 exons and 12 introns and encodes a predicted membrane protein that contains the MatE domain and at least seven putative transmembrane regions. Expression of the ScAACT1 gene is Al-induced, but there were differences in the levels of expression among the cultivars analyzed. A new quantitative trait locus for Al tolerance in rye that co-localizes with the ScAACT1 gene was detected in the 7RS chromosome arm. These results suggest that the ScAACT1 gene is a candidate gene for increased Al tolerance in rye. The phylogenetic relationships between different MATE proteins are discussed.
- Authors:
- Karas, J.
- Hruskova, M.
- Svec, I.
- Hofmanova, T.
- Source: Czech Journal of Food Sciences
- Volume: 30
- Issue: 5
- Year: 2012
- Summary: The baking quality in the sets of both commercial and variety wheat samples (80 and 18 items) and wheat composite flour (standard and 25 blends) was evaluated in terms of the Solvent retention capacity method (AACC 56-11). Composites were prepared from a commercial fine wheat flour and commercial bio-wholemeal flour prepared by milling of common wheat, rye, oat, barleys and corn at substitution levels of 10, 20, 30, 40, and 50%. The commercial wheat quality testing ANOVA revealed the major effect of the sample tested form; the data measured for grain and flour proved to be correlated. Besides, the harvest year affected the baking quality to a greater degree than the growing locality. Within the variety wheat set, the harvest year factor dominated over that of the wheat cultivar one with the exception of the sodium carbonate retention capacity. In the case of the wheat flour substitution by bio-cereal flour types, the added amount of the alternative flour supported only the quantitative change caused by the incorporated cereal in all four retention capacities.
- Authors:
- Source: Entomologia Experimentalis et Applicata
- Volume: 143
- Issue: 2
- Year: 2012
- Summary: Habitat diversification can influence the interactions of insects with plants and this can be used in agroecosystems for the management of pest populations. Plant diversification can be achieved through planting crops, such as trap crops, or by adjusting weed management. Aster leafhopper, Macrosteles quadrilineatus Forbes (Hemiptera: Cicadellidae), is a polyphagous species that uses cereals, vegetables, and weeds as host plants. The influence of weeds on M. quadrilineatus abundance was investigated experimentally in carrot [ Daucus carota L. cv. Canada (Apiaceae)] field plots by adjusting the level of management of two groups of weeds (broadleaf and grass) and by comparing it to weed-free plots. The preference of M. quadrilineatus for different cereal and weed species relative to carrots was tested in choice test assays. Habitat context influenced the abundance of M. quadrilineatus in the field experiments. The presence of border crops such as oat, rye, barley, wheat, and triticale did not significantly attract or repel this insect to carrot plots compared to the no-border treatment. However, spelt-bordered plots had 42% fewer M. quadrilineatus than three treatments, triticale, wheat, and barley, that had the highest insect abundance. The type of weed management affected M. quadrilineatus abundance in carrot plots, but not the frequency of herbicide application. Plots that had carrot growing with broadleaf-weeds had about 59% fewer M. quadrilineatus compared with those growing with crabgrass or carrot alone. In the greenhouse choice tests, grasses (e.g., cereals) attracted and broadleaf-weeds repelled M. quadrilineatus relative to carrots. In summary, carrot growers may be able to manage this pest by reducing the interaction of cereal cover crops with carrots and eliminating grassy weeds in commercial production fields.
- Authors:
- Source: Journal of Cereal Science
- Volume: 55
- Issue: 2
- Year: 2012
- Summary: The last review of the S-poor prolamins was published in 1995. Since then there has been a considerable increase in out knowledge of this interesting and unique group of proteins. The advances in the understanding of genetics and polymorphisms of the proteins are discussed including the available gene sequences and their alignments and consensus sequences. This group of prolamins are implicated as major allergens in WDEIA and wheat allergy and as immunodominant proteins in coeliac disease. The epitopes and their distribution throughout the protein sequences are reviewed. Their structure and physical chemistry is discussed in relation to their functional properties.
- Authors:
- Pergher, M.
- Tomazi, M.
- Pauletti, V.
- de Moraes, A.
- Zanatta, J. A.
- Bayer, C.
- Dieckow, J.
- Piva, J. T.
- Source: Plant and Soil
- Volume: 361
- Issue: 1-2
- Year: 2012
- Summary: Aims For tropical and subtropical soils, information is scarce regarding the global warming potential (GWP) of no-till (NT) agriculture systems. Soil organic carbon (OC) sequestration is promoted by NT agriculture, but this may be offset by increased nitrous oxide (N2O) emissions. We assessed the GWP of a NT as compared to conventional tillage (CT) in a subtropical Brazilian Ferralsol. Methods From September 2008 to September 2009 we used static chambers and chromatographic analyses to assess N2O and methane (CH4) soil fluxes in an area previously used for 3-4 years as a field-experiment. The winter cover crop was ryegrass (Lolium multiflorum Lam.) while in summer it was silage maize (Zea mays L.). Results The accumulated N2O emission for NT was about half that of CT (1.26 vs 2.42 kg N ha(-1) year(-1), P = 0.06). Emission peaks for N2O occurred for a month after CT, presumably induced by mineralization of residual nitrogen. In both systems, the highest N2O flux occurred after sidedressing maize with inorganic nitrogen, although the flux was lower in NT than CT (132 vs 367 mu g N m(-2) h(-1), P = 0.05), possibly because some of the sidedressed nitrogen was immobilized by ryegrass residues on the surface of the NT soil. Neither water-filled pore space (WFPS) nor inorganic nitrogen (NH (4) (+) and NO (3) (-) ) correlated with N2O fluxes, although at some specific periods relationships were observed with inorganic nitrogen. Soils subjected to CT or NT both acted as CH4 sinks during most of the experiment, although a CH4 peak in May (autumn) led to overall CH4 emissions of 1.15 kg CH4-C ha(-1) year(-1) for CT and 1.08 kg CH4-C ha(-1) year(-1) for NT (P = 0.90). The OC stock in the 0-20 cm soil layer was slightly higher for NT than for CT (67.20 vs 66.49 Mg ha(-1), P = 0.36). In the 0-100 cm layer, the OC stock was significantly higher for NT as compared to CT (234.61 vs 231.95 Mg ha(-1), P = 0.01), indicating that NT resulted in the sequestration of OC at a rate of 0.76 Mg ha(-1) year(-1). The CO2 equivalent cost of agronomic practices was similar for CT (1.72 Mg CO(2)eq ha(-1) year(-1)) and NT (1.62 Mg CO(2)eq ha(-1) year(-1)). However, NT reduced the GWP relative to CT (-0.55 vs 2.90 Mg CO(2)eq ha(-1) year(-1)), with the difference of -3.45 Mg CO(2)eq ha(-1) year(-1) (negative value implies mitigation) being driven mainly by OC sequestration. The greenhouse gas intensity (GHGI, equivalent to GWP/silage yield) was lower for NT than CT (-31.7 vs 171.1 kg CO(2)eq Mg-1 for silage maize). Conclusion As compared to CT, greenhouse gas emissions from a subtropical soil can be mitigated by NT by lowering N2O emissions and, principally, sequestration of CO2-C.
- Authors:
- Bakken, L.
- Budai, A.
- Chen, R.
- Senbayram, M.
- Dittert, K.
- Source: Agriculture, Ecosystems & Environment
- Volume: 147
- Issue: January
- Year: 2012
- Summary: Amending agricultural soils with organic residues is frequently recommended to improve soil fertility and to sequester carbon for counteracting global warming. However, such amendments will enhance microbial respiration, hence denitrification. Therefore, the assessment of effects on global warming must take N2O emission and the N2O/(N2O + N-2) product ratio of denitrification into account. There are some indications that the product ratio of denitrification is positively correlated with the ratio of available NO3- and available organic C in soils, but more research is needed to unravel quantitative relationships in well defined experiments. We conducted two laboratory incubation experiments, with the objective (i) to test the impact of the application of various N containing organic substrates including biogas residue on the denitrification rate and on N2O emission, and (ii) to investigate the effect of various NO3- concentrations on the denitrification rate and the N2O/(N2O + N-2) product ratio under standardized anoxic conditions in soils collected from long-term organic or inorganic fertilizer plots. In experiment 1, we found that biogas residue was more recalcitrant than maize straw, despite a high concentration of soluble organic C. High respiration (treatments with maize straw and sucrose) resulted in a transient peak in N2O emission, declining rapidly towards zero as nitrate concentrations reached less than 20 mg NO3--N kg(-1) dry soil. Application of biogas residue had a more moderate effect on soil respiration and denitrification, and resulted in a more long lasting peak in N2O emission. The results were interpreted as a result of a gradual increase in the relative activity of N2O reductase (thus lowering of the N2O/(N2O + N-2) product ratio of denitrification) throughout the incubation, most likely controlled by concentration of available NO3- in soil. In the second experiment, we found low N2O/(N2O N-2) product ratios for the treatment where NO3- concentrations were = 10 mM NO3-, and the ratios were remarkably independent of the soil's fertilizer history. We conclude that (i) in N-fertilized agricultural soils, application of organic matter with high contents of labile C may trigger denitrification-derived N2O emission whereas (ii) in soils with low NO3- contents such application may substantially lower the N2O/(N2O + N-2) product ratio and hence N2O emission. (C) 2011 Elsevier B.V. All rights reserved.